EQUATION OF STATE AND FLUCTUATIONS FROM THE LATTICE Claudia Ratti University of Houston (USA)
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1 EQUATION OF STATE AND FLUCTUATIONS FROM THE LATTICE Claudia Ratti University of Houston (USA) Collaborators: Paolo Alba, Rene Bellwied, Szabolcs Borsanyi, Zoltan Fodor, Jana Guenther, Sandor Katz, Stefan Krieg, Valentina Mantovani-Sarti, Jaki NoronhaHostler, Paolo Parotto, Attila Pasztor, Israel Portillo, Kalman Szabo
2 Lattice QCD Best first principle-tool to extract predictions for the theory of strong interactions in the non-perturbative regime Uncertainties: Statistical: finite sample, error Systematic: finite box size, unphysical quark masses Given enough computer power, uncertainties can be kept under control Results from different groups, adopting different discretizations, converge to consistent results Unprecedented level of accuracy in lattice data 1/31
3 Low temperature phase: HRG model Dashen, Ma, Bernstein; Prakash, Venugopalan, Karsch, Tawfik, Redlich Interacting hadronic matter in the ground state can be well approximated by a non-interacting resonance gas The pressure can be written as: Needs knowledge of the hadronic spectrum 2/31
4 QCD Equation of state at µ B =0 WB: S. Borsanyi et al., WB: S. Borsanyi et al., EoS available in the continuum limit, with realistic quark masses WB HotQCD Agreement between stout and HISQ action for all quantities WB: S. Borsanyi et al., , PLB (2014) HotQCD: A. Bazavov et al., , PRD (2014) 3/31
5 4/31 Sign problem The QCD path integral is computed by Monte Carlo algorithms which samples field configurations with a weight proportional to the exponential of the action detm[µ B ] complex à Monte Carlo simulations are not feasible We can rely on a few approximate methods, viable for small µ B /T: Taylor expansion of physical quantities around µ B =0 (Bielefeld-Swansea collaboration 2002; R. Gavai, S. Gupta 2003) Simulations at imaginary chemical potentials (plus analytic continuation) (Alford, Kapustin, Wilczek, 1999; de Forcrand, Philipsen, 2002; D Elia, Lombardo 2003)
6 5/31 Equation of state as a Taylor expansion in µ B Notation: Taylor expansion for the pressure:
7 6/31 Physics at imaginary µ At imaginary µ there is no sign problem The partition function is periodic in µ I with period 2πT For more chemical potentials: µ Β, µ Q, µ S, several trajectories are possible à useful for different physics Here we use: <n S >=0 <n Q >=0.4<n B > Other choices are possible, e.g.: µ S =0 µ Q =0
8 7/31 Strangeness neutrality We simulate at µ B, µ S pairs such that <n S >=0 This requires a non-trivial fine tuning
9 8/31 Thermodynamic identities For the pressure we measure: For the entropy and energy:
10 Taylor expansion of the pressure WB: S. Borsanyi et al (2016) 9/31
11 WB: S. Borsanyi et al , (2016) 10/31 Equation of state at µ B >0 Extract the isentropic trajectory that the system follows in the absence of dissipation The freeze-out point estimates are from Alba et al., Phys. Lett. B738 (2014)
12 Equation of state along the trajectories WB: S. Borsanyi et al , (2016) 11/31
13 Different orders of µ B expansion for n B 12/31
14 13/31 Fluctuations of conserved charges Definition: Relationship between chemical potentials: They can be calculated on the lattice and compared to experiment
15 14/31 Connection to experiment Fluctuations of conserved charges are the cumulants of their eventby-event distribution F. Karsch: Centr. Eur. J. Phys. (2012) The chemical potentials are not independent: fixed to match the experimental conditions: <n S >=0 <n Q >=0.4<n B >
16 15/31 Things to keep in mind Effects due to volume variation because of finite centrality bin width Experimentally corrected by centrality-bin-width correction method Finite reconstruction efficiency Experimentally corrected based on binomial distribution Spallation protons Experimentally removed with proper cuts in p T Canonical vs Gran Canonical ensemble Experimental cuts in the kinematics and acceptance Proton multiplicity distributions vs baryon number fluctuations Recipes for treating proton fluctuations Final-state interactions in the hadronic phase Consistency between different charges = fundamental test V. Skokov et al., PRC (2013) A.Bzdak,V.Koch, PRC (2012) V. Koch, S. Jeon, PRL (2000) M. Asakawa and M. Kitazawa, PRC(2012), M. Nahrgang et al., J.Steinheimer et al., PRL (2013)
17 16/31 Freeze-out parameters from B fluctuations Thermometer: =S B σ B3 /M B Baryometer: =σ B2 /M B Upper limit: T f 151±4 MeV WB: S. Borsanyi et al., PRL (2014) STAR collaboration, PRL (2014) Consistency between freeze-out chemical potential from electric charge and baryon number is found.
18 17/31 Freeze-out parameters from B fluctuations Thermometer: =S B σ B3 /M B Baryometer: =σ B2 /M B Upper limit: T f 151±4 MeV WB: S. Borsanyi et al., PRL (2014) STAR collaboration, PRL (2014) Consistency between freeze-out chemical potential from electric charge and baryon number is found.
19 18/31 Freeze-out line from first principles Use T- and µ B -dependence of R 12 Q and R 12 B for a combined fit: WB: S. Borsanyi et al., in preparation
20 19/31 What about strangeness freeze-out? Yield fits seem to hint at a higher temperature for strange particles M. Floris: QM 2014 Similar behavior found in lattice QCD results R. Bellwied et al. (WB Collaboration): PRL2013
21 Missing strange states? Quark Model predicts not-yet-detected (multi-)strange hadrons QM-HRG improves the agreement with lattice results for the baryon-strangeness correlator: (µ S /µ B ) LO =-χ 11 BS /χ 2S +χ 11 QS µ Q /µ B The effect is only relevant at finite µ B Feed-down from resonance decays not included A. Bazavov et al., PRL (2014) 20/31
22 Missing strange states? New states appear in the 2014 version of the PDG WB collaboration, in preparation 21/31
23 Missing strange states? New states appear in the 2014 version of the PDG WB collaboration, in preparation 22/31
24 Missing strange states? The comparison with the lattice is improved for the baryonstrangeness correlator: (μ S /μ B ) LO WB collaboration, in preparation 23/31
25 Missing strange states? Some observables are in agreement with the PDG 2014 but not with the Quark Model: Quark Model PDG Quark Model PDG 2014 χ 4 S χ 2 S χ 11 us T[GeV] T[GeV] χ 4S /χ 2 S is proportional to <S 2 > in the system It seems to indicate that the quark model predicts too many multistrange states WB collaboration, in preparation 24/31
26 Missing strange states? Idea: define linear combinations of correlators which receive contributions only from particles with a given quantum number They allow to compare PDG and QM prediction for each sector separately A. Bazavov et al., PRL (2013) 25/31
27 26/31 Missing strange states? WB collaboration, preliminary WB collaboration, preliminary The precision in the lattice results can allow to distinguish between the two scenarios Quark model pushes the agreement with the data for the strange baryons to higher temperatures
28 Not enough strange mesons WB collaboration, preliminary Quark Model PDG 2014 χ 4 S χ 2 S T[GeV] Both Quark Model and PDG 2014 underestimate the partial pressure due to strange mesons This might explain why the QM overestimates χ 4S /χ 2S : more strange mesons would bring the curve down P.M. Lo, K. Redlich, C. Sasaki, PRC (2015) 27/31
29 28/31 Kaon fluctuations Talk by Ji XU at SQM 2016 Experimental data are becoming available. Exciting result but presently hampered by systematic errors BES-II will help Kaon fluctuations from HRG model will be affected by the hadronic spectrum and decays
30 29/31 Kaon fluctuations on the lattice J. Noronha-Hostler, C.R. et al., Boltzmann approximation works well for lower order kaon fluctuations χ 2K /χ 1 K from primordial kaons + decays is very close to the one in the Boltzmann approximation
31 30/31 Kaon fluctuations on the lattice J. Noronha-Hostler, C.R. et al., Experimental uncertainty does not allow a precise determination of T f K
32 31/31 Conclusions Unprecedented precision in lattice QCD data allows a direct comparison to experiment for the first time QCD thermodynamics at µ B =0 can be simulated with high accuracy Extensions to finite density are under control up to O(µ B6 ) Comparison with experiment allows to determine properties of strongly interacting matter from first principles It is possible to identify kaon fluctuations in lattice QCD
33 28/27 Lattice details The 4stout staggered action dynamical flavors 4 levels of stout smearing in the fermionic action The masses are set by bracketing both the pion and the kaon masses within a few percent, keeping m c /m s =11.85 The scale is set in two ways: f π and w 0 (with Wilson flow). The scale setting procedure is one of the source of the systematic error in all of the plots Ensembles Continuum limit from N t =10, 12, 16 For imaginary µ we have µ B =itπj/8, with j=3, 4, 5, 6, 6.5, 7
34 29/27 Equation of state at µ B >0 Expand the pressure in powers of µ B (or µ L =3/2(µ u +µ d )) with Continuum extrapolated results at the physical mass S. Borsanyi et al., JHEP (2012)
35 Analytical continuation illustration of systematics 12/26
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